Codominant
Phenotype and genotype traits don't always have to be the same. Phenotype is the physical characteristics and genotype is the genetic makeup. For example a pea plant can have the genotype of TT and look tall while another plant can have a genotype of Tt and also look tall (T= dominant trait; t= recessive trait.)
A phenotype is a physical characteristic of an organism, such as a tall pea plant. An organism's genotype is the specific gene combination that makes up a characteristic using Punnett Square. For example, a tall pea plant might have a genotype of TT or Tt, whereas a small pea plant may have a genotype of tt. (Note: In this case "T" is dominant and "t" is recessive.)
The phenotype of a plant refers to its observable traits or characteristics. A correct statement about the phenotype of a plant would describe specific traits that can be observed, such as the color of its flowers, the height of its stems, or the shape of its leaves.
Plant breeding
Codiminant principle suggests that a plant with the genotype Tt will display a tall phenotype.
Codiminant principle suggests that a plant with the genotype Tt will display a tall phenotype.
Codominant
Codominant
Nope! TT is the dominant phenotype (what ever it may be) and tt is the recessive phenotype (what ever that may be).So say T is the allele for Tall plants, t is the allele for short plants. TT would be show the tall phenotype while tt would show the short phenotype. If the genotype was Tt, the phenotype would be tall as well because the T is dominant and masks the phenotype of t (short plants).
Phenotype and genotype traits don't always have to be the same. Phenotype is the physical characteristics and genotype is the genetic makeup. For example a pea plant can have the genotype of TT and look tall while another plant can have a genotype of Tt and also look tall (T= dominant trait; t= recessive trait.)
A phenotype is a physical characteristic of an organism, such as a tall pea plant. An organism's genotype is the specific gene combination that makes up a characteristic using Punnett Square. For example, a tall pea plant might have a genotype of TT or Tt, whereas a small pea plant may have a genotype of tt. (Note: In this case "T" is dominant and "t" is recessive.)
The plant's genotype gave it a tall phenotype even though its alleles were heterozygous. Add an I and can and chagne the "?" to a ".".
You would expect 1 homozygous dominant, 2 heterozygous dominant and 1 homozygous recessive offspring. This is because each parent has one dominant and one recessive allele. Therefore there is a 75% chance of a dominant phenotype and a 25% chance of a recessive phenotype.
The phenotype of a plant refers to its observable traits or characteristics. A correct statement about the phenotype of a plant would describe specific traits that can be observed, such as the color of its flowers, the height of its stems, or the shape of its leaves.
The_phenotype_of_a_plant_can_most_easily_be_determined_by
Plant breeding